%0 Generic %1 melnick2019nature %A Melnick, Jorge %A Terlevich, Roberto %A Tenorio-Tagle, Guillermo %A Telles, Eduardo %A Terlevich, Elena %D 2019 %K HII turbulence %T On the nature of supersonic turbulence in Giant HII Regions %U http://arxiv.org/abs/1912.03543 %X New FLAMES/GIRAFFE public data allows to revisit the issue of the origin of the supersonic turbulence inferred in the ionized gas of Giant HII Regions using the prototypical 30~Doradus nebula in the LMC as a guide. We find that the velocity width of the integrated H$\alpha$ line-profile of 30~Doradus can only be explained by the motion of macroscopic parcels of gas driven by the gravitational potential of the stars and gas with a significant contribution of stellar winds. At all positions within the nebula we find that an additional very broad ($\sigma=40-50$~\kms) unresolved component is required to fit the extended wings of the profiles. We find that fitting two Gaussian components to the integrated emission-line profiles provides a robust way of separating the contributions of stellar winds and gravity. Assuming an effective radius of 10pc for the nebula we thus infer a dynamical mass of $\sim10^6$~\msun~ for 30Dor. Our analysis of published observations of the second largest Giant HII Region in the Local Group, NGC~604, shows that our results for 30~Doradus apply to GHR as a class.

@misc{melnick2019nature, abstract = {New FLAMES/GIRAFFE public data allows to revisit the issue of the origin of the supersonic turbulence inferred in the ionized gas of Giant HII Regions using the prototypical 30~Doradus nebula in the LMC as a guide. We find that the velocity width of the integrated H$\alpha$ line-profile of 30~Doradus can only be explained by the motion of macroscopic parcels of gas driven by the gravitational potential of the stars and gas with a significant contribution of stellar winds. At all positions within the nebula we find that an additional very broad ($\sigma=40-50$~\kms) unresolved component is required to fit the extended wings of the profiles. We find that fitting two Gaussian components to the integrated emission-line profiles provides a robust way of separating the contributions of stellar winds and gravity. Assuming an effective radius of 10pc for the nebula we thus infer a dynamical mass of $\sim10^6$~\msun~ for 30Dor. Our analysis of published observations of the second largest Giant HII Region in the Local Group, NGC~604, shows that our results for 30~Doradus apply to GHR as a class.}, added-at = {2019-12-15T21:26:12.000+0100}, author = {Melnick, Jorge and Terlevich, Roberto and Tenorio-Tagle, Guillermo and Telles, Eduardo and Terlevich, Elena}, biburl = {https://www.bibsonomy.org/bibtex/2946a2151ebe4d38266fd812a36bbf8d5/ericblackman}, description = {On the nature of supersonic turbulence in Giant HII Regions}, interhash = {a9f4d59f57a0d006cf11d65395449f7c}, intrahash = {946a2151ebe4d38266fd812a36bbf8d5}, keywords = {HII turbulence}, note = {cite arxiv:1912.03543Comment: 9 pages, 11 figures, submitted for publication in A&A}, timestamp = {2019-12-15T21:26:12.000+0100}, title = {On the nature of supersonic turbulence in Giant HII Regions}, url = {http://arxiv.org/abs/1912.03543}, year = 2019 }